Polímero, palhiço e sistema de plantio em cana-de-açúcar

Detalhes bibliográficos
Ano de defesa: 2011
Autor(a) principal: Santos, Arleto Tenório dos lattes
Orientador(a): Marques, Tadeu Alcides lattes
Banca de defesa: Tiritan, Carlos Sérgio lattes, Serra, Gil Eduardo lattes
Tipo de documento: Dissertação
Tipo de acesso: Acesso aberto
Idioma: por
Instituição de defesa: Universidade do Oeste Paulista
Programa de Pós-Graduação: Mestrado em Agronomia
Departamento: Ciências Agrárias
País: BR
Palavras-chave em Português:
Saccharum
Hidrogel
Solo
Palavras-chave em Inglês:
Saccharum
Hydrogel
Soil
Área do conhecimento CNPq:
CNPQ::CIENCIAS AGRARIAS::AGRONOMIA
Link de acesso: http://bdtd.unoeste.br:8080/tede/handle/tede/538
Resumo: The Brazilian production of sugar cane in the harvest that begins in 2010 is estimated at 664.34 million tonnes grown on 20.0 million acres. This volume exceeds 9.9% in the last harvest, or 59.82 million tons additional. The South-Central region accounts for 90% of the crop in Brazil and Sao Paulo state is expected to 384.6 million tonnes in an area of 10.9 million acres. The cultivars can produce unwanted features, such as problems in the regrowth, lower productivity, lower sugar content, the occurrence of pith, among others, these problems can usually be associated with climatic factors. Most of the areas planted with sugar cane in western São Paulo state are subject to moisture stress. In order to study the reduction or elimination of problems arising from water stress, was investigated the interaction of soil conditioner (hydrogel polymer) with the addition of straw in two tillage systems. The experiment was located on the campus II of UNOESTE , whose soil was characterized as Acrisol Distroferric typical A moderate, medium-textured clay. The climate is classified as Aw, and the summer rainy season and dry season in winter. The variety RB 86 7515 was planted on December 2007 and harvested in June 2009 (18 months), sprouting of this cultivar was used in the study, statistical scheme was split-plot (2x4), two planting systems used in 2007 when the installation process of culture (windrow and grooves), were four doses of hydrogel polymer, (0, 10.79, 21.58 and 32.38 kg of polymer per acres) plots with the dose of polymer, were divided into four treatments with straw in ratoon sugarcane (no leaves, dry leaves, the dose of 2.02 t acres-1, green leaves, at a dose of 6.75 t acres-1, mixture of green leaves and more leaves at a dose of 8.77 t acres-1). To check the moisture in the soil for different treatments, we performed the analysis directly in the soil in each plot using TDR instrument with rods of 0.20 m. To measure the temperature of the soil in each plot, we used analog thermometer deep, with stems to 0.20 m, making the measurement in lines and in between lines. The biometric analysis were: height of tillers, average stem diameter, number of tillers per meter, number of leaves positive, negative, dry leaves and number of leaves. Were performed using analysis of solids and made the determination of technological parameters (Fiber, Pol. Brix, RS, and TRS). Were analyzed for total biomass yield, stalk yield and productivity of trash. All data were subjected to analysis of variance (ANOVA, p <0.05) and the comparison test of means Scott-Knott (p <0.05). The planting in windrow promoted greater tillering, reaching optimal values, also caused higher temperatures in the soil, both on line and in between lines, provided smaller values of TRS compared with traditional cropping system in the groove and did not cause differences in productivity values. The use of polymer showed higher vegetative growth, higher productivity, higher values of RS especially when using mixed coverage. The use of polymer did not alter the levels of soil moisture and decreased temperature in the line as the leading, resulted in higher leaf production due to use of polymer. The use of cover, mainly leaves mixed in a greater biometric growth, especially in the planting furrow, equaled the TRS between Windrow and groove, which was always smaller than in windrow, promoted greater soil moisture in both windrow and in the groove, between the lines this occurred only to groove. The fiber content was higher in bare soil using polymer. The use of cover resulted in lower temperatures both windrow and in the groove.
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spelling Marques, Tadeu AlcidesCPF:06727978875http://lattes.cnpq.br/1065390140881688Tiritan, Carlos SérgioCPF:09946848864http://lattes.cnpq.br/5115037871253293Serra, Gil EduardoCPF:07149263887http://lattes.cnpq.br/9065987445340420CPF:28346023871http://lattes.cnpq.br/2740583551489807Santos, Arleto Tenório dos2016-07-18T17:51:06Z2011-06-022011-03-17SANTOS, Arleto Tenório dos. Polymer, straw and planting systems in sugar cane. 2011. 85 f. Dissertação (Mestrado em Ciências Agrárias) - Universidade do Oeste Paulista, Presidente Prudente, 2011.http://bdtd.unoeste.br:8080/tede/handle/tede/538The Brazilian production of sugar cane in the harvest that begins in 2010 is estimated at 664.34 million tonnes grown on 20.0 million acres. This volume exceeds 9.9% in the last harvest, or 59.82 million tons additional. The South-Central region accounts for 90% of the crop in Brazil and Sao Paulo state is expected to 384.6 million tonnes in an area of 10.9 million acres. The cultivars can produce unwanted features, such as problems in the regrowth, lower productivity, lower sugar content, the occurrence of pith, among others, these problems can usually be associated with climatic factors. Most of the areas planted with sugar cane in western São Paulo state are subject to moisture stress. In order to study the reduction or elimination of problems arising from water stress, was investigated the interaction of soil conditioner (hydrogel polymer) with the addition of straw in two tillage systems. The experiment was located on the campus II of UNOESTE , whose soil was characterized as Acrisol Distroferric typical A moderate, medium-textured clay. The climate is classified as Aw, and the summer rainy season and dry season in winter. The variety RB 86 7515 was planted on December 2007 and harvested in June 2009 (18 months), sprouting of this cultivar was used in the study, statistical scheme was split-plot (2x4), two planting systems used in 2007 when the installation process of culture (windrow and grooves), were four doses of hydrogel polymer, (0, 10.79, 21.58 and 32.38 kg of polymer per acres) plots with the dose of polymer, were divided into four treatments with straw in ratoon sugarcane (no leaves, dry leaves, the dose of 2.02 t acres-1, green leaves, at a dose of 6.75 t acres-1, mixture of green leaves and more leaves at a dose of 8.77 t acres-1). To check the moisture in the soil for different treatments, we performed the analysis directly in the soil in each plot using TDR instrument with rods of 0.20 m. To measure the temperature of the soil in each plot, we used analog thermometer deep, with stems to 0.20 m, making the measurement in lines and in between lines. The biometric analysis were: height of tillers, average stem diameter, number of tillers per meter, number of leaves positive, negative, dry leaves and number of leaves. Were performed using analysis of solids and made the determination of technological parameters (Fiber, Pol. Brix, RS, and TRS). Were analyzed for total biomass yield, stalk yield and productivity of trash. All data were subjected to analysis of variance (ANOVA, p <0.05) and the comparison test of means Scott-Knott (p <0.05). The planting in windrow promoted greater tillering, reaching optimal values, also caused higher temperatures in the soil, both on line and in between lines, provided smaller values of TRS compared with traditional cropping system in the groove and did not cause differences in productivity values. The use of polymer showed higher vegetative growth, higher productivity, higher values of RS especially when using mixed coverage. The use of polymer did not alter the levels of soil moisture and decreased temperature in the line as the leading, resulted in higher leaf production due to use of polymer. The use of cover, mainly leaves mixed in a greater biometric growth, especially in the planting furrow, equaled the TRS between Windrow and groove, which was always smaller than in windrow, promoted greater soil moisture in both windrow and in the groove, between the lines this occurred only to groove. The fiber content was higher in bare soil using polymer. The use of cover resulted in lower temperatures both windrow and in the groove.A produção brasileira de cana-de-açúcar, na safra que iniciou em 2010, está estimada em 664,34 milhões de toneladas cultivados em 8,1 milhões de hectares. Esse volume supera em 9,9% a colheita passada, ou seja, 59,82 milhões de toneladas adicionais. A região Centro-Sul é responsável por 90% da colheita no País e em São Paulo espera-se 384,6 milhões toneladas em uma área de 4,4 milhões de hectares. Os cultivares podem apresentar características não desejadas, como problemas na rebrota, menor produtividade, menor teor de açúcar, ocorrência de isoporização, entre outros. Normalmente estes problemas podem estar associados a fatores climáticos. A maioria das áreas plantadas com cana-de-açúcar na região oeste do estado de São Paulo está sujeita à ocorrência de veranico. Com o intuito de estudar a redução ou eliminação dos problemas oriundos do estresse hídrico, foi pesquisada a interação de condicionadores de solo (polímeros hidroabsorventes) com a adição de palhiço em dois sistemas de plantio. O experimento foi implantado no Campus II da UNOESTE, cujo solo foi caracterizado como Arenoso Vermelho-Amarelo Distroférrico, típico A moderado, textura médio-argilosa. O clima da região se classifica em Aw, sendo a estação chuvosa no verão e estação seca no inverno.O cultivar RB 86 7515 foi plantado em dezembro de 2007 e colhido em junho de 2009 (18 meses) e a soqueira deste cultivar foi utilizada no estudo. O esquema estatístico foi o de parcelas subdivididas (2x4) sendo dois os sistemas de plantios utilizados, em 2007, quando do processo de instalação da cultura (leira e sulco) quatro foram às doses do polímero hidroabsorvente, ( 0; 26,67; 53,33 e 80,00 kg do polímero por hectare). As parcelas com as doses utilizadas de polímero, foram subdivididas em quatro tratamentos com palhiço, na soqueira da cana (sem folhas, folhas secas, na dose de 5 t ha-1, folhas verde, na dose de 16,67 t ha-1, e mistura de folhas verdes mais folhas secas, na dose de 21,67 t ha-1). Para verificar a umidade presente nos diferentes tratamentos, foram efetuadas análises diretamente no solo, em cada subparcela utilizando aparelho TDR com hastes de 0,20 m. Para aferição da temperatura do solo, em cada subparcela, utilizou-se termômetro analógico de profundidade, com hastes de 0,20 m, realizando a medição na linha e na entrelinha da cultura. As análises biométricas realizadas foram: Altura dos perfilhos, Diâmetro médio colmo, Número de perfilhos por metro linear, Número de folhas positivas,folhas negativas, folhas secas e número de folhas totais. No caldo Foram realizadas as análises de brix e realizada na cana a determinação dos parâmetros tecnológicos (Fibra, Pol. Brix. AR, e ATR). Analisou-se produtividade de biomassa total, produtividade de colmos e produtividade de palhiço. Todos os dados foram submetidos à análise de variância (ANOVA, p<0,05) e ao teste de comparação de médias Scott-Knott (p<0,05). O plantio em leira promoveu maior perfilhamento, atingindo valores ideais. As temperaturas no solo, tanto na linha como na entrelinha, foram iguais para leira e sulco. O plantio em leira proporcionou menores valores de ATR, quando comparado com sistema de plantio tradicional, em sulco, e não proporcionou diferenças nos valores de produtividades. A utilização de polímero proporcionou maior desenvolvimento vegetativo, maiores produtividades, valores maiores de AR, principalmente quando utilizando cobertura mista. A utilização de polímero alterou os teores de umidade do solo para plantio em sulco e diminuiu a temperatura, tanto na linha como na entrelinha, para ambos os plantios. Ocorreu maior produção de folhas devido ao uso do polímero. A utilização de cobertura, principalmente folhas misturadas, proporcionou maior crescimento biométrico, no plantio em sulco, igualou o ATR entre leira e sulco, que sempre foi menor em leira, promoveu maior umidade do solo para plantio em sulco. O teor de fibra foi maior em solo nu com a utilização de polímero. O uso de cobertura proporcionou menores temperaturas tanto em leira como em sulco.Made available in DSpace on 2016-07-18T17:51:06Z (GMT). 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dc.title.por.fl_str_mv Polímero, palhiço e sistema de plantio em cana-de-açúcar
dc.title.alternative.eng.fl_str_mv Polymer, straw and planting systems in sugar cane
title Polímero, palhiço e sistema de plantio em cana-de-açúcar
spellingShingle Polímero, palhiço e sistema de plantio em cana-de-açúcar
Santos, Arleto Tenório dos
Saccharum
Hidrogel
Solo
Saccharum
Hydrogel
Soil
CNPQ::CIENCIAS AGRARIAS::AGRONOMIA
title_short Polímero, palhiço e sistema de plantio em cana-de-açúcar
title_full Polímero, palhiço e sistema de plantio em cana-de-açúcar
title_fullStr Polímero, palhiço e sistema de plantio em cana-de-açúcar
title_full_unstemmed Polímero, palhiço e sistema de plantio em cana-de-açúcar
title_sort Polímero, palhiço e sistema de plantio em cana-de-açúcar
author Santos, Arleto Tenório dos
author_facet Santos, Arleto Tenório dos
author_role author
dc.contributor.advisor1.fl_str_mv Marques, Tadeu Alcides
dc.contributor.advisor1ID.fl_str_mv CPF:06727978875
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/1065390140881688
dc.contributor.referee1.fl_str_mv Tiritan, Carlos Sérgio
dc.contributor.referee1ID.fl_str_mv CPF:09946848864
dc.contributor.referee1Lattes.fl_str_mv http://lattes.cnpq.br/5115037871253293
dc.contributor.referee2.fl_str_mv Serra, Gil Eduardo
dc.contributor.referee2ID.fl_str_mv CPF:07149263887
dc.contributor.referee2Lattes.fl_str_mv http://lattes.cnpq.br/9065987445340420
dc.contributor.authorID.fl_str_mv CPF:28346023871
dc.contributor.authorLattes.fl_str_mv http://lattes.cnpq.br/2740583551489807
dc.contributor.author.fl_str_mv Santos, Arleto Tenório dos
contributor_str_mv Marques, Tadeu Alcides
Tiritan, Carlos Sérgio
Serra, Gil Eduardo
dc.subject.por.fl_str_mv Saccharum
Hidrogel
Solo
topic Saccharum
Hidrogel
Solo
Saccharum
Hydrogel
Soil
CNPQ::CIENCIAS AGRARIAS::AGRONOMIA
dc.subject.eng.fl_str_mv Saccharum
Hydrogel
Soil
dc.subject.cnpq.fl_str_mv CNPQ::CIENCIAS AGRARIAS::AGRONOMIA
description The Brazilian production of sugar cane in the harvest that begins in 2010 is estimated at 664.34 million tonnes grown on 20.0 million acres. This volume exceeds 9.9% in the last harvest, or 59.82 million tons additional. The South-Central region accounts for 90% of the crop in Brazil and Sao Paulo state is expected to 384.6 million tonnes in an area of 10.9 million acres. The cultivars can produce unwanted features, such as problems in the regrowth, lower productivity, lower sugar content, the occurrence of pith, among others, these problems can usually be associated with climatic factors. Most of the areas planted with sugar cane in western São Paulo state are subject to moisture stress. In order to study the reduction or elimination of problems arising from water stress, was investigated the interaction of soil conditioner (hydrogel polymer) with the addition of straw in two tillage systems. The experiment was located on the campus II of UNOESTE , whose soil was characterized as Acrisol Distroferric typical A moderate, medium-textured clay. The climate is classified as Aw, and the summer rainy season and dry season in winter. The variety RB 86 7515 was planted on December 2007 and harvested in June 2009 (18 months), sprouting of this cultivar was used in the study, statistical scheme was split-plot (2x4), two planting systems used in 2007 when the installation process of culture (windrow and grooves), were four doses of hydrogel polymer, (0, 10.79, 21.58 and 32.38 kg of polymer per acres) plots with the dose of polymer, were divided into four treatments with straw in ratoon sugarcane (no leaves, dry leaves, the dose of 2.02 t acres-1, green leaves, at a dose of 6.75 t acres-1, mixture of green leaves and more leaves at a dose of 8.77 t acres-1). To check the moisture in the soil for different treatments, we performed the analysis directly in the soil in each plot using TDR instrument with rods of 0.20 m. To measure the temperature of the soil in each plot, we used analog thermometer deep, with stems to 0.20 m, making the measurement in lines and in between lines. The biometric analysis were: height of tillers, average stem diameter, number of tillers per meter, number of leaves positive, negative, dry leaves and number of leaves. Were performed using analysis of solids and made the determination of technological parameters (Fiber, Pol. Brix, RS, and TRS). Were analyzed for total biomass yield, stalk yield and productivity of trash. All data were subjected to analysis of variance (ANOVA, p <0.05) and the comparison test of means Scott-Knott (p <0.05). The planting in windrow promoted greater tillering, reaching optimal values, also caused higher temperatures in the soil, both on line and in between lines, provided smaller values of TRS compared with traditional cropping system in the groove and did not cause differences in productivity values. The use of polymer showed higher vegetative growth, higher productivity, higher values of RS especially when using mixed coverage. The use of polymer did not alter the levels of soil moisture and decreased temperature in the line as the leading, resulted in higher leaf production due to use of polymer. The use of cover, mainly leaves mixed in a greater biometric growth, especially in the planting furrow, equaled the TRS between Windrow and groove, which was always smaller than in windrow, promoted greater soil moisture in both windrow and in the groove, between the lines this occurred only to groove. The fiber content was higher in bare soil using polymer. The use of cover resulted in lower temperatures both windrow and in the groove.
publishDate 2011
dc.date.available.fl_str_mv 2011-06-02
dc.date.issued.fl_str_mv 2011-03-17
dc.date.accessioned.fl_str_mv 2016-07-18T17:51:06Z
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dc.type.driver.fl_str_mv info:eu-repo/semantics/masterThesis
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dc.identifier.citation.fl_str_mv SANTOS, Arleto Tenório dos. Polymer, straw and planting systems in sugar cane. 2011. 85 f. Dissertação (Mestrado em Ciências Agrárias) - Universidade do Oeste Paulista, Presidente Prudente, 2011.
dc.identifier.uri.fl_str_mv http://bdtd.unoeste.br:8080/tede/handle/tede/538
identifier_str_mv SANTOS, Arleto Tenório dos. Polymer, straw and planting systems in sugar cane. 2011. 85 f. Dissertação (Mestrado em Ciências Agrárias) - Universidade do Oeste Paulista, Presidente Prudente, 2011.
url http://bdtd.unoeste.br:8080/tede/handle/tede/538
dc.language.iso.fl_str_mv por
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dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
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dc.publisher.none.fl_str_mv Universidade do Oeste Paulista
dc.publisher.program.fl_str_mv Mestrado em Agronomia
dc.publisher.initials.fl_str_mv UNOESTE
dc.publisher.country.fl_str_mv BR
dc.publisher.department.fl_str_mv Ciências Agrárias
publisher.none.fl_str_mv Universidade do Oeste Paulista
dc.source.none.fl_str_mv reponame:Biblioteca Digital de Teses e Dissertações da UNOESTE
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